Welcome to the home of The Question Evolution Project. Presenting information demonstrating that there is no truth in minerals-to-man evolution, and presenting evidence for special creation. —Established by Cowboy Bob Sorensen

Thursday, October 5, 2017

Express Delivery to Chromosome Two

According to some outdated versions of minerals-to-microbiologist evolution, the human genome was examined. Using outdated technology, evolutionary assumptions, and a whole heap of hubris, some DNA ("noncoding") was considered "junk". That is, containing material that was important in the past but we evolved and don't need it anymore. Not a good idea to slap a branding iron on something you don't rightly understand and herd it into the Settled Science Corral, because the "junk" is constantly being found useful.

The extreme specified complexity of the molecular world, including DNA, RNA, cells, and so forth, cannot be explained by evolutionary ideas. In this case, a kind of package is sent from one chromosome, takes a ride on a protein, and makes a delivery to the exact location on another chromosome. Over a billion possibilities, and the package ends up where it's needed. Time, chance, random processes — with no evolutionary model or mechanism? That'll be the day! No, this is yet another of many evidences indicating that God engineered his creation. Creation deniers need to give some serious thought to their epistemology.

Think of the difficulty of sending a package from one location to another when there are a billion possible destinations. To make this process efficient it requires infrastructure and machines that can propel themselves and navigate. It’s even more amazing if this happens in an ever changing soup of molecules within a cell.

In 2007, John Rinn discovered a lncRNA (long non-coding RNA) transcribed from DNA on human Chromosome 12 that would somehow navigate and land at a specific location on human Chromosome 2 by riding a molecular “bus” known as the Suz12 protein. It was the first example of a transcript from one chromosome influencing the expression of a gene on another chromosome. This epigenetic action, he found, was a crucial part of cell signaling for differentiating skin cells in the body. It’s why the skin cells in the sole of the foot, for instance, have different qualities than skin cells in the lid of the eye.